2 research outputs found

    Rewrite Closure and CF Hedge Automata

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    We introduce an extension of hedge automata called bidimensional context-free hedge automata. The class of unranked ordered tree languages they recognize is shown to be preserved by rewrite closure with inverse-monadic rules. We also extend the parameterized rewriting rules used for modeling the W3C XQuery Update Facility in previous works, by the possibility to insert a new parent node above a given node. We show that the rewrite closure of hedge automata languages with these extended rewriting systems are context-free hedge languages

    One-variable context-free hedge automata

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    International audienceWe introduce an extension of hedge automata called One-Variable Context-Free Hedge Automata. The class of unranked ordered tree languages they recognize has polynomial membership problem and is preserved by rewrite closure with inverse-monadic rules. We also propose a modeling of primitives of the W3C XQuery Update Facility by mean of parameterized rewriting rules, and show that the rewrite closure of a context-free hedge language with these extended rewriting systems is a context-free hedge language. This result is applied to static analysis of XML access control policies expressed with update primitives
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